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Far field of an optical grating
Posted 13 févr. 2014, 05:15 UTC−5 Wave Optics Version 4.4 3 Replies
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Dear All,
I'm studying what happens when a gaussian beam impinges a lithium niobate sample in which it is written a refractive index pattern; the sample can rotate respect to the beam direction, and I want to compare the simulated far field with the experimental data. The comsol model (which is attached to this comment) follows more or less the nano-particle tutorial; unfortunately I see much more peaks as expected and I think that I'm missing something about the far field calculation.
It's worth noting that if I remove the lithium niobate sample and I leave air instead, the computed result shows, as expected, the bare gaussian beam (normE) BUT the far field is not a gaussian (as it should be because the Fourier transform of a gaussian is again a gaussian)! This strange behaviour suggests that I'm not using the far-field tool in a proper way...
Thanks in advance for any suggestions.
Nicola
I'm studying what happens when a gaussian beam impinges a lithium niobate sample in which it is written a refractive index pattern; the sample can rotate respect to the beam direction, and I want to compare the simulated far field with the experimental data. The comsol model (which is attached to this comment) follows more or less the nano-particle tutorial; unfortunately I see much more peaks as expected and I think that I'm missing something about the far field calculation.
It's worth noting that if I remove the lithium niobate sample and I leave air instead, the computed result shows, as expected, the bare gaussian beam (normE) BUT the far field is not a gaussian (as it should be because the Fourier transform of a gaussian is again a gaussian)! This strange behaviour suggests that I'm not using the far-field tool in a proper way...
Thanks in advance for any suggestions.
Nicola
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3 Replies Last Post 13 févr. 2014, 13:04 UTC−5